A string is a specialized vector (one-dimensional array)
whose elements are characters.

Specifically, the type string
is identical to the type (vector string-char), which in turn
is the same as (array string-char (*)).

X3J13 voted in March 1989 (CHARACTER-PROPOSAL)
to eliminate the type string-char and to redefine the type
string to be the union of one or more specialized vector
types, the types of whose elements are subtypes of the type character.

Any string-specific function defined in this chapter
whose name begins with the prefix string
will accept a symbol instead of a string
as an argument provided that the operation never modifies that argument;
the print name of the symbol is used.
In this respect the string-specific sequence operations are not
simply specializations of generic versions; the generic sequence
operations described in chapter 14 never accept symbols as sequences.
This slight inelegance is permitted in Common Lisp in the name of pragmatic utility.
One may get the effect of having a generic sequence function
operate on either symbols or strings by applying the coercion
function string to any argument whose data type is in doubt.

Note that this remark, predating the design of the Common Lisp Object System,
uses the term ``generic'' in a generic sense and not necessarily
in the technical sense used by CLOS
(see chapter 2).

Also, there is a slight non-parallelism in the names of string functions.
Where the suffixes equalp and eql would be more appropriate,
for historical compatibility the suffixes equal and = are used instead
to indicate case-insensitive and case-sensitive character comparison,
respectively.

Any Lisp object may be tested for being a string by
the predicate stringp.

Note that strings, like all vectors, may have fill pointers
(though such strings are not necessarily simple).
String operations generally operate only on the active portion of the string
(below the fill pointer). See fill-pointer and related
functions.